Wang S, Wang G K
Department of Biology, State University of New York at Albany, Albany, NY 12222, USA.
Pflugers Arch. 1996 Aug;432(4):692-9. doi: 10.1007/s004240050187.
The slow inactivation of cloned muscle alpha-subunit Na+ channels was investigated using a Chinese hamster ovary cell line permanently transfected with rat muscle mu1 cDNA. Expression of mu1 Na+ channels was found in cells maintained for more than 6 months after transfection; > 70% of cells expressed >/= 3 nA of Na+ current at +30 mV under whole-cell patch-clamp conditions. As expected, Na+ currents in these cells were blocked by tetrodotoxin as well as by mu-conotoxin. After prolonged depolarization (10 s at +30 mV) to inactivate voltage-gated Na+ channels, Na+ currents slowly reappeared over a time course of several minutes, during which time the cell was repolarized to the holding potential of -100 mV. This recovery from slow inactivation was best fitted by a double exponential function with tau1 = 2.5 s (amplitude = 53%) and tau2 = 83.4 s (amplitude = 38%). In contrast, the development of slow inactivation at +30 mV was best fitted by a single exponential function, with tau = 3.0 s. Steady-state slow inactivation (s infinity) had a midpoint potential (s0.5) of -52 mV and a slope factor (k) of 7.8 mV. Elimination of fast inactivation by treatment with chloramine-T accelerated the development of slow inactivation significantly (by approximately four fold) but had little effect on recovery or on steady-state slow inactivation. Finally, as in cloned brain NaIIA Na+ channels, batrachotoxin abolished both fast and slow inactivation of mu1 Na+ channels. These results together suggest that slow inactivation takes place in the alpha-subunit of mu1 muscle Na+ channels and is governed by a microliter protein region different from that governing fast inactivation.
利用稳定转染大鼠肌肉μ1 cDNA的中国仓鼠卵巢细胞系,对克隆的肌肉α亚基钠通道的缓慢失活进行了研究。在转染后维持6个月以上的细胞中发现了μ1钠通道的表达;在全细胞膜片钳条件下,超过70%的细胞在+30 mV时表达≥3 nA的钠电流。正如预期的那样,这些细胞中的钠电流被河豚毒素以及μ - 芋螺毒素阻断。在长时间去极化(+30 mV下10 s)以使电压门控钠通道失活后,钠电流在几分钟的时间进程中缓慢重新出现,在此期间细胞被复极化至-100 mV的保持电位。这种从缓慢失活中的恢复最适合用双指数函数拟合,其中τ1 = 2.5 s(幅度 = 53%)和τ2 = 83.4 s(幅度 = 38%)。相比之下,在+30 mV时缓慢失活的发展最适合用单指数函数拟合,τ = 3.0 s。稳态缓慢失活(s∞)的中点电位(s0.5)为-52 mV,斜率因子(k)为7.8 mV。用氯胺 - T处理消除快速失活显著加速了缓慢失活的发展(约四倍),但对恢复或稳态缓慢失活影响很小。最后,与克隆的脑NaIIA钠通道一样,蟾毒素消除了μ1钠通道的快速和缓慢失活。这些结果共同表明,缓慢失活发生在μ1肌肉钠通道的α亚基中,并且由与控制快速失活的微升蛋白质区域不同的区域控制。
